User Domains Your project write - up for Part 1 will need to include an in - depth review of the use

User Domains Your project write - up for Part 1 will need to include an in - depth review of the use

Aug 17th, 2016

Studypool Tutor

Price: $20 USD

Tutor description

1. Operate in the 2.4 and 5GHz bands and support and support the newest wireless AC standards for future proofing.
2. Broadcast multiple SSIDs that will be connect to different VLANs (based on user domains such as teacher, student, and guest)
3. Support moderately directional antennas (or different broadcast powers) to eliminate excessive coverage overlap that will cause interference
4. Easy remote management is necessary due to the large quantity of APs
5. Support for POE to eliminate extra wires and troubleshooting during failures

Answer-----------1If youre looking for faster wifi performance, you want 802.11ac its as simple as that. Inessence, 802.11ac is a supercharged version of 802.11n (the current wifi standard that yoursmartphone and laptop probably use), offering link speeds ranging from 433 megabits-persecond (Mbps), all the way through to several gigabits per second. To achieve speeds that aredozens of times faster than 802.11n, 802.11ac works exclusively in the 5ghz band, uses aton of bandwidth (80 or 160mhz), operates in up to eight spatial streams (MIMO), andemploys a kind of technology called beamforming. For more details on what 802.11ac is, andhow it will eventually replace wired gigabit Ethernet networking at home and in the office,read on.How 802.11ac worksYears ago, 802.11n introduced some exciting technologies that brought massive speed boostsover 802.11b and g. 802.11ac does something similar compared with 802.11n. For example,whereas 802.11n had support for four spatial streams (44 MIMO) and a channel width of40mhz, 802.11ac can utilize eight spatial streams and has channels up to 80mhz wide which can then be combined to make 160mhz channels. Even if everything else remained thesame (and it doesnt), this means 802.11ac has 8x160mhz of spectral bandwidth to play with,vs. 4x40mhz a huge difference that allows it to squeeze vast amounts of data across theairwaves.To boost throughput further, 802.11ac also introduces 256-QAM modulation (up from 6